A system for drying wet food articles (such as produce) is disclosed herein. The system can comprise a turntable capable of rotating multiple barrel stations. The system can comprise various loading, drying, dumping, and cleaning positions, and the barrel stations can be rotated to each of these positions. The present disclosure also describes various methods for drying wet food articles utilizing such systems.

A device for producing granular materials or extrudates. The device includes a container having: an inlet for the material to be treated, an inlet for a liquid; a stirring device for producing an intermediate product from the material to be processed and the liquid; an outlet for the intermediate product; and an emptying pipe. The device includes an emptying pipe, which has: an inlet for the intermediate product; an outlet for the granular material or extrudate; and a conveying device, which conveys the intermediate product from the inlet of the emptying pipe toward the outlet of the emptying pipe, the emptying pipe, which is rotatable about an axis E-E, being arranged on the container in such a way that the emptying pipe can be moved between an open position and a closed position relative to the container.

A device and method for drying fine particulate. A parallel flow rotary drum dryer is used to dry the particulate material. There is a combustion chamber for the burner, located upstream of the dryer inlet, and the burner flame is limited to the combustion chamber so the fine particulate material does not come into direct contact with the burner flame. The output from the dryer passes through a knock-out box including a baffle system with a plurality of narrow gaps to create a pressure drop to slow down the gas flow and enable the entrained fine mesh dry particulate to drop out through a bottom outlet before the effluent gas is sent to the dust collection/air filtration system.

A vegetation tray includes a base. The base is formed from a thin wall having a plurality of spaced peaks and valleys. A plurality of apertures are in the base. The apertures enables passage of air for drying vegetation on the tray. A boundary wall extending from the base.

A method for emptying a device for producing granules or extrudates. The device includes a container having an inlet for the material to be treated, an inlet for a liquid, a stirring device, an outlet for said intermediate product, and an emptying pipe having an inlet for the intermediate product and an outlet for the granules or extrudate as well as a conveying device conveying the intermediate product from the inlet of the emptying pipe in the direction of the outlet of the emptying pipe. The method includes the steps of: producing the intermediate product from the material to be treated and the liquid in the container; moving the emptying pipe from the closed position with respect to the container into an open position with respect to the container; and conveying the intermediate product from the container and via the conveying devices.

A post-harvest crop management platform is provided for regulating conditions of an agricultural crop being dried and/or stored. The platform utilizes data collected from sensors positioned proximate to, or embedded within, an agricultural crop, and analyzes selected crop characteristics affecting the stored crop in multiple sections thereof. The platform identifies parameters relative to achieving a desired crop characteristic level in the agricultural crop, generates a profile of the selected crop characteristic across the multiple sections of the stored crop, and models an application of a fluid flow pattern to achieve the desired crop characteristic level in each section. The crop storage monitoring and management platform also actuates a multi-stack assembly, configured within the stored crop, to automatically apply the fluid flow pattern in one or more cycles that are adjustable to changing conditions within the stored crop in real time. The crop storage monitoring and management platform further integrates with, and connects to and communicates with, other systems within an autonomous field activity ecosystem.

An apparatus for drying bulk particulate material, and having an inlet chamber for receiving a moist bulk particulate material and an outlet chamber for ejecting a dry bulk particulate material. The inlet chamber comprises a steam permeable bottom being divided into a number of subsections including a first subsection and a second subsection. Each subsection defines a first and a second radial centreline. The first subsection and the second subsection each having at least one louvered plate section comprising a plurality of louvers arranged in a first and a second specific direction, respectively, for directing superheated steam in a first and second blowing direction, towards said lower cylindrical inner wall. The specific direction of the louvers of the first subsection defines a first angle in relation to the first radial centre-line, and specific direction of said louvers of said second subsection defines a second angle in relation to said second radial centreline, and said first angle and/or said second angle, being different from 0 degrees.

A mobile steel grit dryer used to dry steel grit may be configured with a number of different functions and features to assist a contractor in performing steel or other structure maintenance when using steel grit in resurfacing the structure. The steel grit dryer may be configured with a heat process vacuum bypass so that an off-board vacuum, such as a vacuum on a grit recycling system, may be utilized as opposed to having an onboard vacuum. The dryer may include multiple modes so that an operator may use different modes for different environmental conditions. An exoframe may provide for better durability when being transported to different jobsites. A variety of automation and safety features may also be provided to simplify and improve safety for operators.

The present invention refers to an automatic grain processing apparatus comprising, in an integrated manner, that is, in a single apparatus, the following units: a cleaning unit (2); a drying unit comprising a dryer (18), a grain weighing and classification unit; and a grain packaging and labelling unit. The present invention also refers to a grain integrity monitoring and tracking system, comprising one or a plurality of sensors arranged in a package and configured to measure the properties, such as temperature and/or moisture and/or pressure and/or vacuum of the packaged grains, together with the location of the load; and at least one communication module configured to receive the data from one or a plurality of sensors and configured to transmit and store the information from said one or a plurality of sensors in a cloud or any high-performance repository. Said sensors arranged in the package (34) can identify exactly how, when and where the load, that is, the packaged grains, is stored, the temperature, vacuum and pressure conditions of the grains, and also provide agile location responses for monitoring by the end client.

A system and method for staged drying of temperature sensitive materials, the method comprising the following steps. Heated air is blown into a duct and solids are introduced into the duct at an elevated position along a vertical portion of the duct. The heated air and solids mixture is then transported along the duct for a desired retention time with adequate initial flash heating of the solids and then a gradual cool down of the solids. The solids are at an elevated temperature beyond the ambient dewpoint with evaporative cooling taking place. The solids and air mixture is then transported in the duct to a cyclone, where the solids are removed from the air. The air is exhausted out of the cyclone by an exhaust duct, and the solids are collected from the cyclone in a container.